Supplemental progesterone delays heat termination and the loss of progestin receptors from hypothalamic cell nuclei in female guinea pigs.

Abstract

Previous studies indicate that the retention of hypothalamic nuclear progestin receptors parallels the expression of sexual receptivity in ovariectomized, hormonally treated guinea pigs. In this study, the effect of a supplemental progesterone injection on heat termination and retention of nuclear progestin receptors was examined. Ovariectomized guinea pigs were injected with 50 micrograms progesterone 48 h after receiving 4 micrograms estradiol benzoate and were tested hourly for lordosis. 8 h after progesterone treatment, animals received either 500 micrograms progesterone or the oil vehicle. The supplemental progesterone injection delayed the termination of heat by more than 2 h compared to oil-injected animals. The effect of supplemental progesterone on the retention of nuclear progestin receptors was then determined. Animals were killed 8, 10, or 14 h after the initial injection of progesterone, and cytosol and nuclear progestin receptor concentrations in mediobasal hypothalamus-preoptic area were determined. Supplemental progesterone further increased the level of nuclear progestin receptors measured at 10 h, and at 14 h these levels were still elevated above baseline. In contrast, nuclear progestin receptor levels in animals which received only the initial progesterone injection had returned to baseline by 14 h, a time when similarly treated animals were no longer receptive. These results suggest that the mechanism by which heat termination occurs may involve loss of nuclear progestin receptors.